From 570ec471d1605318aeefb030cd78682ae442235b Mon Sep 17 00:00:00 2001
From: EuAndreh <eu@euandre.org>
Date: Mon, 31 Mar 2025 21:51:40 -0300
Subject: src/content/: Update all files left to asciidoc

---
 src/content/blog/2021/02/17/fallible.adoc | 216 ++++++++++++++++++------------
 1 file changed, 128 insertions(+), 88 deletions(-)

(limited to 'src/content/blog/2021/02')

diff --git a/src/content/blog/2021/02/17/fallible.adoc b/src/content/blog/2021/02/17/fallible.adoc
index 8a097f8..533e107 100644
--- a/src/content/blog/2021/02/17/fallible.adoc
+++ b/src/content/blog/2021/02/17/fallible.adoc
@@ -1,49 +1,51 @@
 = ANN: fallible - Fault injection library for stress-testing failure scenarios
 
-date: 2021-02-17
+:fallible: https://euandreh.xyz/fallible/
 
-updated_at: 2022-03-06
+Yesterday I pushed v0.1.0 of {fallible}[fallible], a miniscule library for
+fault-injection and stress-testing C programs.
 
-layout: post
+== _EDIT_
 
-lang: en
+:changelog: https://euandreh.xyz/fallible/CHANGELOG.html
+:tarball: https://euandre.org/static/attachments/fallible.tar.gz
 
-ref: ann-fallible-fault-injection-library-for-stress-testing-failure-scenarios
+2021-06-12: As of {changelog}[0.3.0] (and beyond), the macro interface improved
+and is a bit different from what is presented in this article.  If you're
+interested, I encourage you to take a look at it.
 
----
+2022-03-06: I've {tarball}[archived] the project for now.  It still needs some
+maturing before being usable.
 
-Yesterday I pushed v0.1.0 of [fallible], a miniscule library for fault-injection
-and stress-testing C programs.
+== Existing solutions
 
-[fallible]: https://euandreh.xyz/fallible/
+:gnu-std: https://www.gnu.org/prep/standards/standards.html#Semantics
+:valgrind: https://www.valgrind.org/
+:so-alloc: https://stackoverflow.com/questions/1711170/unit-testing-for-failed-malloc
 
-## *EDIT*
+Writing robust code can be challenging, and tools like static analyzers, fuzzers
+and friends can help you get there with more certainty.  As I would try to
+improve some of my C code and make it more robust, in order to handle system
+crashes, filled disks, out-of-memory and similar scenarios, I didn't find
+existing tooling to help me get there as I expected to find.  I couldn't find
+existing tools to help me explicitly stress-test those failure scenarios.
 
-2021-06-12: As of [0.3.0] (and beyond), the macro interface improved and is a bit different from what is presented in this article.  If you're interested, I encourage you to take a look at it.
+Take the "{gnu-std}[Writing Robust Programs]" section of the GNU Coding
+Standards:
 
-2022-03-06: I've [archived] the project for now.  It still needs some maturing before being usable.
+____
+Check every system call for an error return, unless you know you wish to ignore
+errors.  (...) Check every call to malloc or realloc to see if it returned NULL.
+____
 
-[0.3.0]: https://euandreh.xyz/fallible/CHANGELOG.html
-[archived]: https://euandre.org/static/attachments/fallible.tar.gz
-
-## Existing solutions
-
-Writing robust code can be challenging, and tools like static analyzers, fuzzers and friends can help you get there with more certainty.
-As I would try to improve some of my C code and make it more robust, in order to handle system crashes, filled disks, out-of-memory and similar scenarios, I didn't find existing tooling to help me get there as I expected to find.
-I couldn't find existing tools to help me explicitly stress-test those failure scenarios.
-
-Take the "[Writing Robust Programs][gnu-std]" section of the GNU Coding Standards:
-
-[gnu-std]: https://www.gnu.org/prep/standards/standards.html#Semantics
-
-> Check every system call for an error return, unless you know you wish to ignore errors.
-> (...) Check every call to malloc or realloc to see if it returned NULL.
-
-From a robustness standpoint, this is a reasonable stance: if you want to have a robust program that knows how to fail when you're out of memory and `malloc` returns `NULL`, than you ought to check every call to `malloc`.
+From a robustness standpoint, this is a reasonable stance: if you want to have a
+robust program that knows how to fail when you're out of memory and `malloc`
+returns `NULL`, than you ought to check every call to `malloc`.
 
 Take a sample code snippet for clarity:
 
-```c
+[source,c]
+----
 void a_function() {
   char *s1 = malloc(A_NUMBER);
   strcpy(s1, "some string");
@@ -51,13 +53,15 @@ void a_function() {
   char *s2 = malloc(A_NUMBER);
   strcpy(s2, "another string");
 }
-```
+----
 
-At a first glance, this code is unsafe: if any of the calls to `malloc` returns `NULL`, `strcpy` will be given a `NULL` pointer.
+At a first glance, this code is unsafe: if any of the calls to `malloc` returns
+`NULL`, `strcpy` will be given a `NULL` pointer.
 
 My first instinct was to change this code to something like this:
 
-```diff
+[source,diff]
+----
 @@ -1,7 +1,15 @@
  void a_function() {
    char *s1 = malloc(A_NUMBER);
@@ -74,22 +78,26 @@ My first instinct was to change this code to something like this:
 +  }
    strcpy(s2, "another string");
  }
-```
+----
 
 As I later found out, there are at least 2 problems with this approach:
 
-1. **it doesn't compose**: this could arguably work if `a_function` was `main`.
-   But if `a_function` lives inside a library, an `exit(1);` is a inelegant way of handling failures, and will catch the top-level `main` consuming the library by surprise;
-2. **it gives up instead of handling failures**: the actual handling goes a bit beyond stopping.
-   What about open file handles, in-memory caches, unflushed bytes, etc.?
-
-If you could force only the second call to `malloc` to fail, [Valgrind] would correctly complain that the program exitted with unfreed memory.
+. *it doesn't compose*: this could arguably work if `a_function` was `main`.
+  But if `a_function` lives inside a library, an `exit(1);` is an inelegant way
+  of handling failures, and will catch the top-level `main` consuming the
+  library by surprise;
+. *it gives up instead of handling failures*: the actual handling goes a bit
+  beyond stopping.  What about open file handles, in-memory caches, unflushed
+  bytes, etc.?
 
-[Valgrind]: https://www.valgrind.org/
+If you could force only the second call to `malloc` to fail,
+{valgrind}[Valgrind] would correctly complain that the program exitted with
+unfreed memory.
 
 So the last change to make the best version of the above code is:
 
-```diff
+[source,diff]
+----
 @@ -1,15 +1,14 @@
 -void a_function() {
 +bool a_function() {
@@ -110,40 +118,61 @@ So the last change to make the best version of the above code is:
    }
    strcpy(s2, "another string");
  }
-```
+----
 
-Instead of returning `void`, `a_function` now returns `bool` to indicate whether an error ocurred during its execution.
-If `a_function` returned a pointer to something, the return value could be `NULL`, or an `int` that represents an error code.
+Instead of returning `void`, `a_function` now returns `bool` to indicate whether
+an error ocurred during its execution.  If `a_function` returned a pointer to
+something, the return value could be `NULL`, or an `int` that represents an
+error code.
 
-The code is now a) safe and b) failing gracefully, returning the control to the caller to properly handle the error case.
+The code is now a) safe and b) failing gracefully, returning the control to the
+caller to properly handle the error case.
 
-After seeing similar patterns on well designed APIs, I adopted this practice for my own code, but was still left with manually verifying the correctness and robustness of it.
+After seeing similar patterns on well designed APIs, I adopted this practice for
+my own code, but was still left with manually verifying the correctness and
+robustness of it.
 
-How could I add assertions around my code that would help me make sure the `free(s1);` exists, before getting an error report?
-How do other people and projects solve this?
+How could I add assertions around my code that would help me make sure the
+`free(s1);` exists, before getting an error report? How do other people and
+projects solve this?
 
-From what I could see, either people a) hope for the best, b) write safe code but don't strees-test it or c) write ad-hoc code to stress it.
+From what I could see, either people a) hope for the best, b) write safe code
+but don't strees-test it or c) write ad-hoc code to stress it.
 
-The most proeminent case of c) is SQLite: it has a few wrappers around the familiar `malloc` to do fault injection, check for memory limits, add warnings, create shim layers for other environments, etc.
-All of that, however, is tightly couple with SQLite itself, and couldn't be easily pulled off for using somewhere else.
+The most proeminent case of c) is SQLite: it has a few wrappers around the
+familiar `malloc` to do fault injection, check for memory limits, add warnings,
+create shim layers for other environments, etc.  All of that, however, is
+tightly couple with SQLite itself, and couldn't be easily pulled off for using
+somewhere else.
 
-When searching for it online, an [interesting thread] caught my atention: fail the call to `malloc` for each time it is called, and when the same stacktrace appears again, allow it to proceed.
+When searching for it online, an {so-alloc}[interesting thread] caught my
+atention: fail the call to `malloc` for each time it is called, and when the
+same stacktrace appears again, allow it to proceed.
 
-[interesting thread]: https://stackoverflow.com/questions/1711170/unit-testing-for-failed-malloc
+== Implementation
 
-## Implementation
+:mallocfail: https://github.com/ralight/mallocfail
+:should-fail-fn: https://euandre.org/git/fallible/tree/src/fallible.c?id=v0.1.0#n16
 
-A working implementation of that already exists: [mallocfail].
-It uses `LD_PRELOAD` to replace `malloc` at run-time, computes the SHA of the stacktrace and fails once for each SHA.
+A working implementation of that already exists: {mallocfail}[mallocfail].  It
+uses `LD_PRELOAD` to replace `malloc` at run-time, computes the SHA of the
+stacktrace and fails once for each SHA.
 
-I initially envisioned and started implementing something very similar to mallocfail.
-However I wanted it to go beyond out-of-memory scenarios, and using `LD_PRELOAD` for every possible corner that could fail wasn't a good idea on the long run.
+I initially envisioned and started implementing something very similar to
+mallocfail.  However I wanted it to go beyond out-of-memory scenarios, and using
+`LD_PRELOAD` for every possible corner that could fail wasn't a good idea on the
+long run.
 
-Also, mallocfail won't work together with tools such as Valgrind, who want to do their own override of `malloc` with `LD_PRELOAD`.
+Also, mallocfail won't work together with tools such as Valgrind, who want to do
+their own override of `malloc` with `LD_PRELOAD`.
 
-I instead went with less automatic things: starting with a `fallible_should_fail(char *filename, int lineno)` function that fails once for each `filename`+`lineno` combination, I created macro wrappers around common functions such as `malloc`:
+I instead went with less automatic things: starting with a
+`fallible_should_fail(char *filename, int lineno)` function that fails once for
+each `filename`+`lineno` combination, I created macro wrappers around common
+functions such as `malloc`:
 
-```c
+[source,c]
+----
 void *fallible_malloc(size_t size, const char *const filename, int lineno) {
 #ifdef FALLIBLE
   if (fallible_should_fail(filename, lineno)) {
@@ -157,11 +186,13 @@ void *fallible_malloc(size_t size, const char *const filename, int lineno) {
 }
 
 #define MALLOC(size) fallible_malloc(size, __FILE__, __LINE__)
-```
+----
 
-With this definition, I could replace the calls to `malloc` with `MALLOC` (or any other name that you want to `#define`):
+With this definition, I could replace the calls to `malloc` with `MALLOC` (or
+any other name that you want to `#define`):
 
-```diff
+[source,diff]
+----
 --- 3.c 2021-02-17 00:15:38.019706074 -0300
 +++ 4.c 2021-02-17 00:44:32.306885590 -0300
 @@ -1,11 +1,11 @@
@@ -178,27 +209,35 @@ With this definition, I could replace the calls to `malloc` with `MALLOC` (or an
    if (!s2) {
      free(s1);
      return false;
-```
+----
 
-With this change, if the program gets compiled with the `-DFALLIBLE` flag the fault-injection mechanism will run, and `MALLOC` will fail once for each `filename`+`lineno` combination.
-When the flag is missing, `MALLOC` is a very thin wrapper around `malloc`, which compilers could remove entirely, and the `-lfallible` flags can be omitted.
+With this change, if the program gets compiled with the `-DFALLIBLE` flag the
+fault-injection mechanism will run, and `MALLOC` will fail once for each
+`filename`+`lineno` combination.  When the flag is missing, `MALLOC` is a very
+thin wrapper around `malloc`, which compilers could remove entirely, and the
+`-lfallible` flags can be omitted.
 
-This applies not only to `malloc` or other `stdlib.h` functions.
-If `a_function` is important or relevant, I could add a wrapper around it too, that checks if `fallible_should_fail` to exercise if its callers are also doing the proper clean-up.
+This applies not only to `malloc` or other `stdlib.h` functions.  If
+`a_function` is important or relevant, I could add a wrapper around it too, that
+checks if `fallible_should_fail` to exercise if its callers are also doing the
+proper clean-up.
 
-The actual code is just this single function, [`fallible_should_fail`], which ended-up taking only ~40 lines.
-In fact, there are more lines of either Makefile (111), README.md (82) or troff (306) on this first version.
+The actual code is just this single function,
+{should-fail-fn}[`fallible_should_fail`], which ended-up taking only ~40 lines.
+In fact, there are more lines of either Makefile (111), README.md (82) or troff
+(306) on this first version.
 
-The price for such fine-grained control is that this approach requires more manual work.
+The price for such fine-grained control is that this approach requires more
+manual work.
 
-[mallocfail]: https://github.com/ralight/mallocfail
-[`fallible_should_fail`]: https://euandre.org/git/fallible/tree/src/fallible.c?id=v0.1.0#n16
+== Usage examples
 
-## Usage examples
+=== `MALLOC` from the `README.md`
 
-### `MALLOC` from the `README.md`
+:fallible-check: https://euandreh.xyz/fallible/fallible-check.1.html
 
-```c
+[source,c]
+----
 // leaky.c
 #include <string.h>
 #include <fallible_alloc.h>
@@ -221,24 +260,25 @@ int main() {
   free(aaa);
   return 0;
 }
-```
+----
 
-Compile with `-DFALLIBLE` and run [`fallible-check.1`][fallible-check]:
-```shell
+Compile with `-DFALLIBLE` and run {fallible-check}[`fallible-check.1`]:
+
+[source,shell]
+----
 $ c99 -DFALLIBLE -o leaky leaky.c -lfallible
 $ fallible-check ./leaky
 Valgrind failed when we did not expect it to:
 (...suppressed output...)
 # exit status is 1
-```
+----
 
-[fallible-check]: https://euandreh.xyz/fallible/fallible-check.1.html
+== Conclusion
 
-## Conclusion
+:package: https://euandre.org/git/package-repository/
 
-For my personal use, I'll [package] them for GNU Guix and Nix.
-Packaging it to any other distribution should be trivial, or just downloading the tarball and running `[sudo] make install`.
+For my personal use, I'll {package}[package] them for GNU Guix and Nix.
+Packaging it to any other distribution should be trivial, or just downloading
+the tarball and running `[sudo] make install`.
 
 Patches welcome!
-
-[package]: https://euandre.org/git/package-repository/
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